We still think of quantum computing as of science fiction, but in fact, it is already there. The quantum computing industry was worth $507.1 million in 2019. Experts from the McKinsey consulting company estimate that the quantum computing industry may exceed $65 billion by 2030, and reach an unprecedented $1 trillion by 2035. So, basically, in a few years, quantum computing will become mainstream. But how does business react to this eventuality?

Tech giants like IBM, Google, Honeywell and many others are in for the race to be the first to implement quantum computing on a massive scale. There is no clear leader yet, but recently Honeywell made a bold move: the company announced that its newest quantum computer has reached a quantum volume of 64 - twice as much as computers of IBM and Google.

And while the giants are at each other's throats, smaller companies look for alternative approaches. One of the first minor companies to showcase real-life use cases for the technology is QubitTechthat has demonstrated application of quantum computing in asset management. Thus quantum computing becomes not a theoretical breakthrough, but a financially viable and useful technology for everyone.

QubitTech is a company founded by a group of independent experts in algorithmic and traditional asset management. QubitTech CEO Greg Limon, also co-founder and shareholder of Toronto-based DigiMax Globa,l is known to have conducted two successful IPOs and participated in numerous venture projects with over $2 billion funds raised. His market expertise is second to none, as he has personally raised over $300 million for a series of successful startups that have grown to become global names.

Application of quantum technologies

The QubitTech platform makes use of quantum technologies that were initially fielded by IBM and offered a unique set of tools based on machine learning methods, quantum algorithms, and quantum neural networks.

Continuous improvements and testing have allowed the algorithmic systems used by QubitTech to advance into more sophisticated areas of application and offer their users a host of adjustable settings for achieving better risk to reward ratios in financial operations.

QubitTech has a clearly defined internal structure with dedicated workgroups for separate departments. Apart from having a healthy mix of experts on the team from financial, consulting, investment banking and other areas, QubitTech designs its own software solutions using internal resources.

The technological products offered by QubitTech give users the ability to select from a variety of balanced strategies based on smart diversification achieved by the use of algorithmic and traditional methods that are applied on the Bitfinex and Binance exchange platforms. More traditional approaches are also available for clients considering their strategies conservative.

The constructs have been proven to deliver up to 7% monthly yields. The simultaneous use of several strategies has been proven to deliver more promising results and QubitTech delivers.

Apart from trading bots and quantum computing constructs, QubitTech offers a host of other products as well, underscoring the platform's title as a full-fledged ecosystem of interconnected applications. Among the products is the P2P platform CryptoLocal are:

Other services that QubitTech plans to release in 2021 include a marketplace, a dedicated gaming platform, a venture fund, and an accelerator powered by the efforts of the project community.

The company has been making headway in its global expansion and is already represented in 13 countries with 150,000 active users.

The merger of quantum computing and the cryptocurrency industry may be a novel practice, but time has proven that advanced technologies often benefit each other. And while the two industries seem to be developed separately, some companies like QubitTech are taking leaps of faith and technological development, showing audiences what combined efforts can deliver.

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QubitTech shapes the future of quantum computing - IBTimes India

The year 2020 has been one of the most unpredictable years and in parallel, we have seen the transition of technology in various sectors that has really helped humanity predict & prepare for any catastrophic condition. Considering the Covid-19 pandemic as one of the situations, many Scientists, Engineers & other techies have realized that a lot of development is still required to make life easier with accessible technology. Therefore, we bring to you some of the top tech trends to watch in 2021:

In the last decade, we have seen that there is no limit for technology & with the rise of digitalization in India, there will be a need for Quantum computing in order to protect Banking systems & IT security from cybercrime. With database processing as a critical strength of quantum computing, technologies such as artificial intelligence will be one application that will get significant benefit from the superior processing of Quantum computers.

Therefore, it can be seen that there will be massive competition among the big IT giants to provide services in cybersecurity, drug development, climatic condition prediction, etc., with the help of quantum computing.

In IoT applications, there were two challenges: the range and battery life. These two challenges are now overcome with the help of NB IoT. Considering the fact that approximately 21 billion devices will be connected by 2025, there will be a huge competition between Telecoms like Jio, Airtel, Vodafone, and others to provide cost-effective & efficient solution to their consumers in SaaS (Software as a Service) and PaaS (Platform as a Service) model. Moreover, India is working actively on NB IoT. In a first, BSNL with Skylo has launched the world's first satellite-based on NB-IoT to streamline various sectors, including fishers, farmers, construction, mining and logistics enterprises.

Tech trends to watch in 2021 | Representational image

IPA is the advanced version of RPA i.e., Robotics Process Automation. It is actually a combination of RPA & Machine Learning. Due to the outbreak of COVID-19, most of the IT industry has given intimation that there is a possibility to announce permanent work from home & some of the companies have already declared the same, including TCS, Deloitte, Twitter, etc. It is imperative for any industry to check the activeness, productivity & relative output from the workforce during this scenario.

Therefore, IPA techniques will be expected to increase process efficiency, better customer experience, optimize workforce productivity, and generate a relatively surge in revenue generation. In 2019-2020 we saw how chatbot helped the firms automate customer interaction & thereby reducing the operational cost. Similarly, various IPA techniques will help firms of any kind to construct any raw data into a structured one. In consequence, IPA techniques will be going to reducing human error & enhancing customer satisfaction.

Artificial Intelligence will expand its footprints in various sectors, including military, defence, agriculture, automotive, education, medical, construction, etc. power & scope of AI is unimaginable; it's endless. According to Fox News, the artificial intelligence algorithm, developed by heron systems, swept a human F-16 pilot in a simulated dogfight 5-0 on August 2020. Additionally, with the launch of GPT-3, an autoregressive language model that uses deep learning to produce human-like text developed by the OpenAI lab team.

This model expects to generate excellent quality text, making it difficult to distinguish whether the text is generated by humans or machines. In the agriculture sector, too, there will be some expectation to increase crop productivity with the help of AI techniques & thereby increasing farmers' income.

With the announcement of NEP 2020 by the Ministry of Education, there will be a change in all the institutions' learning patterns. We can see the rise in technologies such as Artificial Intelligence, Machine Learning, Big Data, blockchain, etc. Hence, the education ministry will put strenuous effort into upgrading India's education quality to make a skilled workforce.

Most awaited 5G or the 5th generation cellular network technology services is expected to launch in 2021 as telecom giants including Bharti Airtel, Jio, Vodafone Idea is ramping up to move early trails to commercialization with their respective partners.

Meanwhile, Reliance CMD Mr. Mukesh Ambani has already declared that Jio is ready with the infrastructure & Jio will pioneer the 5G revolution in India in the second half of 2021. This way, we can realize that technologies have made our lives easier and better in many misfortune situations. Hence, it will be our primary need in the future to let humans and machines work together to protect humans.

-Article by Abhishek Gupta, CEO & Co-founder, Hex N Bit

READ | Education sector's 2021 outlook and trends to keep in mind

READ | 5 edtech startups to watch out for in 2021

READ | What skills are Indians learning for 2021

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Tech trends to watch in 2021 - India Today

Tyler Cowen| Bloomberg Opinion

Columns share an author's personal perspective and are often based on facts in the newspaper's reporting.

For obvious reasons, 2020 will not go down as a good year. At the same time, it has brought more scientific progress than any year in recent memory and these advances will last long after COVID-19 as a major threat is gone.

Two of the most obvious and tangible signs of progress are the mRNA vaccines now being distributed across America and around the world. These vaccines appear to have very high levels of efficacy and safety, and they can be produced more quickly than more conventional vaccines. They are the main reason to have a relatively optimistic outlook for 2021. The mRNA technology also may have broader potential, for instance by helping to mend damaged hearts.

Other advances in the biosciences may prove no less stunning. A very promising vaccine candidate against malaria, perhaps the greatest killer in human history, is in the final stages of testing. Advances in vaccine technology have created the real possibility of a universal flu vaccine, and work is proceeding on that front. New CRISPR techniques appear on the verge of vanquishing sickle-cell anemia, and other CRISPR methods have allowed scientists to create a new smartphone-based diagnostic test that would detect viruses and offer diagnoses within half an hour.

It has been a good year for artificial intelligence as well. GPT-3 technology allows for the creation of remarkably human-like writing of great depth and complexity. It is a major step toward the creation of automated entities that can react in very human ways. DeepMind, meanwhile, has used computational techniques to make major advances in protein folding. This is a breakthrough in biology that may lead to the easier discovery of new pharmaceuticals.

One general precondition behind many of these advances is the decentralized access to enormous computing power, typically through cloud computing. China seems to be progressing with a photon method for quantum computing, a development that is hard to verify but could prove to be of great importance.

Computational biology, in particular, is booming. The Moderna vaccine mRNA was designed in two days, and without access to COVID-19 itself, a remarkable achievement that would not have been possible only a short while ago. This likely heralds the arrival of many other future breakthroughs from computational biology.

Internet access itself will be spreading. Starlink, for example, has a plausible plan to supply satellite-based internet connections to the entire world.

It also has been a good year for progress in transportation.

Driverless vehicles appeared to be stalled, but Walmart will be using them on some truck deliveries in 2021. Boom, a startup that is pushing to develop feasible and affordable supersonic flight, now has a valuation of over $1 billion, with prototypes expected next year. SpaceX achieved virtually every launch and rocket goal it had announced for the year. Toyota and other companies have announced major progress on batteries for electric vehicles, and the related products are expected to debut in 2021.

All this will prove a boon for the environment, as will progress in solar power, which in many settings is as cheap as any relevant alternative. China is opening a new and promising fusion reactor. Despite the absence of a coherent U.S. national energy policy, the notion of a mostly green energy future no longer appears utopian.

In previous eras, advances in energy and transportation typically have brought further technological advances, by enabling humans to conquer and reshape their physical environments in new and unexpected ways. We can hope that general trend will continue.

Finally, while not quite meeting the definition of a scientific advance, the rise of remote work is a real breakthrough. Many more Zoom meetings will be held, and many business trips will never return. Many may see this as a mixed blessing, but it will improve productivity significantly. It will be easier to hire foreign workers, easier for tech or finance workers to move to Miami, and easier to live in New Jersey and commute into Manhattan only once a week. The most productive employees will be able to work from home more easily.

Without a doubt, it has been a tragic year. Alongside the sadness and failure, however, there has been quite a bit of progress. Thats something worth keeping in mind, even if we cant quite bring ourselves to celebrate, as we look back on 2020.

Tyler Cowen is a Bloomberg Opinion columnist. He is a professor of economics at George Mason University and writes for the blog Marginal Revolution. His books include "Big Business: A Love Letter to an American Anti-Hero."

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The silver lining of 2020 - SouthCoastToday.com

Analysts and pundits didnt foresee COVID-19 coming in 2020 and that the virus would accelerate the digitalisation trend a seismic or tectonic shift in its own right resulting from the fragmentation of physical processes and the emphases on a low-touch economy as part of compliance to the standard operating procedures (SOP) to break and contain the transmission of the virus.

Not all digitalisation trends are precipitated (in the sense of having their momentum accelerated) by the unprecedented spread of COVID-19 though, as some would have been in the works for years and the breakthroughs only came this year. Likewise, digitalisation trends for 2021 would also reflect similar developments. That is, COVID-19 would have been the impetus and catalyst in contradistinction from cause for the rise of some digitalisation trends whilst others would have already been pursued beforehand.

Lets take a look at some of the digital lessons from 2020 as well as look ahead to 2021.

Cloud Kitchens

COVID-19 has encouraged and enhanced the use of cloud services for physical operations such as in cloud kitchens. What this means is that cooking and delivery services could be centralised rather than having disparate collection points such as various restaurants. The underlying purpose is that dining-in (front-of-house) areas are removed from the overall business process thus saving on costs labour/manpower, operational, overheads, dining assets, etc.

In Malaysia in particular and the region in general, online food delivery businesses such as GrabFood (through Grab e-Kitchen) and FoodPanda have been leveraging on the cloud kitchen concept due to high demand and cost effectiveness. The cloud kitchen trend which came to the fore in 2020 is expected to grow and expand in the Klang Valley in tandem with the overall growth and explosion of e-commerce in the country.

Theres also the trend of hyperconverged infrastructure/technology (HCI) whereby businesses and enterprises can save costs and physical space too. Data management and cloud specialist Nutanix defines HCI as the combination of common datacentre hardware using locally attached storage resources with intelligent software to create flexible building blocks that replace legacy infrastructure consisting of separate servers, storage networks, and storage arrays.

International Data Corporation (IDC), a leading information and communications technology (ICT) market intelligence firm, has predicted that the HCI market will grow to US$7.64 billion in 2021. In Malaysia, local logistics and express carrier giant Gdex has adopted Nutanix Hybrid Cloud to keep up with demands in e-commerce for scalability and business-to-consumer (B2C) operations.

Augmented Reality / Virtual Reality

And then, we have augmented reality (AR)/virtual reality (VR) which is making its presence felt in Malaysias tourism sector. Again, COVID-19 has resulted in partial lockdowns or movement control order (MCO) in Malaysias case, which has massively impacted its tourism sector which is the countrys third major export and foreign exchange earner.

AR/VR is a digital gateway and portal to the on-site tourism experience. Used for marketing and promotional purposes, it allows potential on-site tourists to enjoy an audio-visual sampling of the full package on offer the real world, tactual experience. All one needs to access the virtual experience is a smartphone, laptop, tablet or personal computer (PC).

Moving forward, the Artificial Intelligence of Things (AIoT) which is basically the combination of artificial intelligence (AI) and the Internet of Things (IoT) is making rapid headway. According to futurist Bernard Marr, IoT devices such as sensors, universal remote controllers, and biometric scanners can be likened to a digital nervous system with AI serving as the brain.

When AI is added to the IoT it means that those devices can analyse data and make decisions and act on that data without involvement by humans, explains Marr.

With the advent of 5G technology and smart cities, AIoT is expected to emerge in the near future as part of the new norm in our homes.

Protein Folding

While not exactly a digitalisation trend, the online journal Nature on 30 November reported that after years of pain-staking efforts, an AI called AlphaFold developed by Google offshoot DeepMind has achieved a gargantuan leap in computational biology, namely by determining a proteins 3D shape from its amino-acid sequence or what is popularly known as protein folding where structure is function (an axiom of molecular biology).

As proteins are the building-blocks of life, unravelling their molecular structure would yield insights into the mysteries of life so that finding treatments and cures for intractable diseases such as Parkinsons, producing viral drugs for COVID-19 or identifying suitable enzymes that biodegrade industrial waste, would be possible.

According to the DeepMind website, AlphaFold was taught (via deep learning) by reproducing the sequences and structures of around 100,000 known proteins. Come 2021, we could expect to herald the beginning of a new chapter related to many scientific and industrial applications which hopefully extends to agriculture and food production, air pollution control (carbon capture and storage) and water treatment, among others.

Connected to the AI breakthrough in predicting protein folding is, of course, quantum computingthat represents the leap from bits (binary 0 or 1) to qubits (0 & 1 at the same time) based on quantum physics and mechanics (of the simultaneity-duality of supposition and entanglement). For now, quantum computing can be deployed for complex tasks such as predicting the 3D shape of protein folding and structure.

Blockchain

As for blockchain or distributed ledger technology (DLT), it is fast making a mark in supply chain management (SCM) with the strategic collaboration between public and private sectors. In Malaysia, the use of blockchain by the Royal Malaysian Customs Department (RMCD) will ease and facilitate import-export transactions of private sector stakeholders (shipping/logistics and traders).

Specifically, the TradeLens platform jointly developed by AP Moller-Maersk and IBM is based on the Collaboration Application Programming Interface (API) concept which ensures that all logistics activities such as haulage, warehousing, shipping and freight forwarding at both, domestic and international levels, can now be wholly integrated.

Notwithstanding, will quantum supremacy which Google had claimed to achieve finally constrain the full potential of blockchain technology? According to Deloitte, someone with an operational quantum computer who has access to the public key (public address) could then falsify the transaction signature known as hashing which is an encryption mechanism (in the form of a cryptographic function) serving as proof of work that is linkable to another block of transaction data (hence forming a blockchain) and therefore hack to gain entry to the private key (i.e., for the purpose of decryption of the signature). Be that as it may, quantum computing could also easily be deployed in blockchain technology to fend off would-be hackers or rogue miners.

Autonomous Driving

And not least, robotic process automation (RPA) is increasingly being used in fintech (financial technology). In its Fintech and Digital Banking 2025 Asia Pacific report, IDC stated that financial liberalisation, drive towards cost-reduction, intense competition from counterparts as well as P2P (peer-to-peer) players, wafer-thin net interest margins, etc. are catalysing banks to further automate, e.g., through RPA software that enables computers to process manual workloads of business processes more efficiently and effectively (such as triggering error-free responses).

Finally, autonomous driving will soon be an in-thing in Malaysia as it is in other parts of the world, not least across the Causeway (in Singapore). Software by eMooVit Technology, a local start-up specialising in driverless agnostic vehicle software for urban environment routes can be used in different applications such as first/last-mile transportation, logistics and utility solutions.

On 23 December last year, eMoovit was reported to be the first company to use Malaysias first self-driving vehicle testing route as announced by Futurise, a wholly-owned subsidiary of technology hub enabler, Cyberview. As reported in the local media, the seven-kilometre Cyberjaya Malaysia Autonomous Vehicle (MyAV) Testing Route was jointly developed by Futurise and the Ministry of Transport (MoT) under the National Regulatory Sandbox (NRS) initiative for the development of autonomous or self-driving vehicles.

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Malaysia: Leveraging On Digitalisation Trends - The ASEAN Post

Raise your hand if you ever wanted to get beamed onto the transport deck of the USS Enterprise. Maybe we havent reached the point of teleporting entire human beings yet (sorry Scotty), but what we have achieved is a huge breakthrough towards quantum internet.

Led by Caltech, a collaborative team from Fermilab, NASAs Jet Propulsion Lab, Harvard University, the University of Calgary and AT&T have now successfully teleported qubits (basic units of quantum info) across almost 14 miles of fiber optic cables with 90 percentprecision. This is because of quantum entanglement, the phenomenon in which quantum particles which are mysteriously entangled behave exactly the same even when far away from each other.

When quantum internet is finally a thing, it will make Wifi look obsolete and dial-up even more ancient than it already is. We achieved sustained, high-fidelity quantum teleportation utilizing time-bin (time-of-arrival_ qubits of light, at the telecommunication wavelength of 1.5 microns, over fiber optic cables, Panagiotis Spentzouris, Head of Quantum Science at the Fermilab Quantum Institute, told SYFY WIRE. This type of qubit is compatible with several devices that are required for the deployment of quantum networks.

What you might recognize is the fiber optic cables used in the experiment, since they are everywhere in telecommunication tech today. Lasers, electronics and optical equipment which were also used for the experiments at Caltech (CQNET) and Fermilab (FQNET) that could someday evolve into the next iteration of internet. Though this is equipment you probably also recognize, what it did for these experiments was enable them to go off without a glitch. Information traveled across the cables at warp speed with the help of semi-autonomous systems that monitored it while while managing control and synchronization of the entangled particles. The system could run for up to a week without human intervention.

So if entangled qubits are inextricably linked despite the distance between them, is there even a limit to how far information can travel? Hypothetically, they could go on forever. What limits exist in reality are not in the qubits but the effects of their surroundings. While one of the qubits containing information stays where it is, the other one has to zoom over to wherever it needs to transfer that information. It could run into obstacles on the way.

What limits the distance that information can be transmitted is loss and noise: either from the properties of the medium we use to send the information or the effects of the environment on the medium, or imperfections on the various operations we need to perform to realize the information transfer, Spentzouris, who coauthored a study recently published in PRX Qunatum, said.

To keep quantum internet running at high precision and over distances around what it was able to cover in this experiment, the quantum teleportation that powers it needs quantum memory and quantum repeaters. Quantum memory is basically the quantum version of the memory your computer and smartphone use now. Instead of storing memory as something like 100101011, it stores it in the form of qubits. To make it possible for entangled qubits to travel as far as possible, quantum repeaters make it easier for those qubits to traverse by splitting it into sections over which they are teleported.

With this system, Spentzouris and his team are planning to lay out the epic Illinois Express Quantum Network (IEQNET), which will use the same technologies that the CQNET and FQNET experiments so successfully pulled off. More tech will obviously needed to realize this sci-fi brainchild. It will combine quantum and non-quantum functions for its quantum nodes and controls. The only thing missing will be the repeaters, since they will need more development to operate over such an expanse. Spentzouris believes quantum computing itself reaches far beyond internet.

Fully distributed quantum computing includes applications include GPS, secure computation beyond anything that can be achieved now, all the way to enabling advances in designing new materials and medicine, as well basic science discoveries, he said. It will unleash the full power of quantum computing and have a profound impact on our lives.

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Beam me up: long-distance quantum teleportation has happened for the first time ever - SYFY WIRE